CN214249919U - Cool warmer - Google Patents

Abstract

The utility model discloses a cool and very heavy equipment includes: a housing having a chamber therein; the chamber is divided into an indoor side and an outdoor side by a partition assembly; the shell is provided with an indoor air inlet and an indoor air outlet on the indoor side; the air guide body is arranged on the indoor side and provided with an air guide air inlet and an air guide air outlet, the air guide air inlet faces the indoor air inlet, and the air guide air outlet faces the indoor air outlet. The utility model provides a cold air heater is through setting up the wind-guiding body in indoor side to make indoor side air current can with the inside function device that generates heat of having of cold air heater completely isolated basically, increased the air volume of indoor side simultaneously, make the refrigeration effect of indoor side improve, thereby improve complete machine refrigeration efficiency, make the whole region of indoor side can even, reach the refrigeration effect fast, improved user's experience and felt.

Description

Cool warmer

Technical Field

The application relates to the technical field of refrigeration, in particular to a cooling device.

Background

The cooling heater is an overhead fan suitable for being installed in a kitchen and a toilet, has small floor area and larger wind power compared with a common fan, and is widely applied to life. At present, when a common air cooler on the market works, air after heat exchange of a heat exchanger is directly blown out from an air outlet formed in the air cooler under the action of an internal fan, and an additional air guide body is not arranged between the heat exchanger and the air outlet. Therefore, the air volume in and out is limited, the air circulation speed at the indoor side is low, the refrigerating effect of the cooling heater is poor, and the experience of a user is influenced.

Therefore, it is urgently needed to provide a cooling device to solve the above problems.

Disclosure of Invention

Not enough to prior art exists, the utility model provides a cold heater sets up the wind-guiding body in limited space, increases inboard air current to solve the current not good problem of refrigeration effect of cold heater in.

To the technical problem mentioned above, the utility model provides a cooling device, include: a housing having a chamber therein; the separation assembly is arranged in the chamber and is used for separating the chamber into an indoor side and an outdoor side; the shell is provided with an indoor air inlet and an indoor air outlet on the indoor side; the air guide body is arranged on the indoor side and provided with an air guide air inlet and an air guide air outlet, the air guide air inlet faces the indoor air inlet, and the air guide air outlet faces the indoor air outlet; the cross-flow fan is arranged in the air guide body and is positioned at the air guide air inlet; the evaporator is arranged in the air guide body and is positioned between the cross-flow fan and the air guide air outlet; the cross-flow fan is used for forming indoor side air flow, and the indoor side air flow enters the air guide air inlet from the indoor air inlet, sequentially passes through the cross-flow fan and the evaporator, and is then discharged from the air guide air outlet to the indoor air outlet.

In some embodiments, the air guide body includes a first air guide cavity and a second air guide cavity which are communicated with each other, the air guide inlet is disposed on the first air guide cavity, the air guide outlet is disposed on the second air guide cavity, the cross-flow fan is disposed in the first air guide cavity, and the evaporator is disposed in the second air guide cavity.

In some embodiments, the air guide body comprises a lower shell body, a first lower air guide cavity, a second lower air guide cavity and a lower mounting groove; the upper shell is provided with a first upper air guide cavity, a second upper air guide cavity and an upper mounting groove; the lower casing and the upper casing are mutually butted, so that the first lower air guide cavity and the first upper air guide cavity form a first air guide cavity, the second lower air guide cavity and the second upper air guide cavity form a second air guide cavity, the lower mounting groove and the upper mounting groove form a mounting groove, and the cross-flow fan is mounted in the mounting groove.

In some embodiments, the top of the evaporator is fixed to the upper casing, the bottom of the evaporator is fixed to the lower casing, and a wind guide channel is arranged between the side edge of the evaporator and the second wind guide cavity.

In some embodiments, a limiting plate for installing and fixing the evaporator is arranged at a side of the second air guiding cavity, where the upper shell and the lower shell are located, in a relative position.

In some embodiments, the air guide air inlet and the air guide air outlet are both disposed on the same side of the lower housing.

In some embodiments, the cross-flow fan comprises two cross-flow wind wheels and a plastic package motor, the plastic package motor comprises a machine body and a machine shaft, the machine shaft extends out from two sides of the machine body, and the two cross-flow wind wheels are respectively connected to the machine shafts on two sides of the plastic package motor.

In some embodiments, the outdoor unit further comprises a compressor and a condenser, both of which are disposed outside the outdoor unit, the evaporator is communicated with the compressor through a first pipeline, the evaporator is communicated with the condenser through a second pipeline, and the condenser is communicated with the compressor through a third pipeline.

In some embodiments, the housing further has an outdoor air intake opening and an outdoor air outlet opening at the outdoor side, the condenser is installed at a side near the outdoor air outlet opening, and the compressor is installed between the partition assembly and the condenser.

In some embodiments, the outdoor air conditioner further comprises an exhaust pipe, and one end of the exhaust pipe is communicated with the outdoor air outlet.

In some embodiments, still include the exhaust fan, the exhaust fan includes air exhaust motor and flabellum, air exhaust motor has air exhaust organism and exhaust fan axle, the flabellum is installed on the exhaust fan axle, the exhaust fan sets up in the outdoor air outlet, the exhaust fan is used for forming outdoor side air current, outdoor side air current is followed outdoor air intake gets into outdoor side, process in proper order again the compressor the condenser with the exhaust fan is followed outdoor air outlet is discharged afterwards.

In some embodiments, the housing further has at least one bar-shaped hole disposed at the outdoor side, and the at least one bar-shaped hole serves as the outdoor air inlet.

In some embodiments, the air conditioner further comprises an electronic control box, wherein the compressor, the condenser, the cross-flow fan, the evaporator and the exhaust fan are electrically connected to the electronic control box, and the electronic control box is mounted on the separation assembly and located outside the room.

In some embodiments, the electrical connector further includes an outlet plate, wherein the housing has an outlet, and the outlet plate is clamped to the outlet.

In some embodiments, a side of the outlet plate is fixed with an elastic component and the one side relative to the elastic component has a joint board, the elastic component is kept away from the one side of outlet plate has a stopper, works as the outlet plate is installed when on the outlet, the joint board stretches into in the outdoor side just joint flange reason with the baffle of dustcoat supports each other and leans on, the elastic component joint is in open-ended edge just the stopper with the protruding piece supports each other and leans on.

The utility model has the advantages that:

the utility model discloses a cooling device divides the cavity into the indoor side and the outdoor side by utilizing the separation component, so as to reduce the heat exchange between the outdoor side and the outdoor side as much as possible, and avoid the hot air blown out from the condenser from flowing back to the indoor side, thereby leading to the refrigeration effect of the indoor side to be worsened and influencing the problem of the whole machine operation energy efficiency; through set up the air guide body in indoor side to make indoor side air current can with the inside functional device that generates heat that has of cold day warmer completely isolated basically, increased the air volume of indoor side simultaneously, make the refrigeration effect of indoor side improve, thereby improve complete machine refrigeration efficiency, make the whole region of indoor side can be even, reach the refrigeration effect fast, improved user's experience and felt. The utility model discloses a cold day warmer still has simple structure, simple to operate, low cost, the advantage of high reliability.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a cross-sectional view of a super cooler according to an embodiment of the present invention, which mainly shows the structural distribution of the interior of the super cooler;

fig. 2 is an exploded view of a super cooler according to an embodiment of the present invention;

fig. 3 is an assembly structure view of the bottom plate and the partition member of the housing according to an embodiment of the present invention, which mainly shows the positions of the indoor air inlet and the indoor air outlet;

fig. 4 is a schematic structural view of an air guide according to an embodiment of the present invention;

fig. 5 is a block diagram of the evaporator, compressor and condenser connected by pipes according to an embodiment of the present invention;

fig. 6 is a structure diagram of a wire outlet plate according to an embodiment of the present invention, which mainly shows the structure of the elastic member;

fig. 7 is a structure diagram of a wire outlet according to an embodiment of the present invention, which mainly shows the positions of the opening and the bump;

fig. 8 is an airflow path diagram of the indoor side and the outdoor side according to an embodiment of the present invention;

fig. 9 is a sectional view taken along a-a direction of fig. 8, and mainly shows the position of the air guide passage.

Description of reference numerals:

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application. Furthermore, it should be understood that the detailed description and specific examples, while indicating exemplary embodiments of the invention, are given by way of illustration and explanation only, and are not intended to limit the scope of the invention. In the present application, unless indicated to the contrary, the use of the directional terms "upper" and "lower" generally refer to the upper and lower positions of the device in actual use or operation, and more particularly to the orientation of the figures of the drawings; while "inner" and "outer" are with respect to the outline of the device. The embodiment of the application provides a cooling device. The following are detailed below. It should be noted that the following description of the embodiments is not intended to limit the preferred order of the embodiments.

Position specification: the top, upper, bottom, lower, and side portions are all referred to as the position of the indoor air outlet, for example, the position of the indoor air outlet is defined as the bottom of the overall cooling device in this embodiment, and the opposite top, side, and the like are referred to as the reference.

As shown in fig. 1 and 2, the present embodiment provides a cooling device 100. The cooling device 100 includes: the air-conditioning system comprises a shell 1, an air guide body 2, a cross-flow fan 3, a refrigeration component, a separation component 5, an exhaust pipe 6, an exhaust fan 7, an electric control box 8 and an outlet plate 9.

The shell 1 comprises a bottom plate 11, an outer cover 12 and a side plate 13; the dustcoat 12 includes a roof and two relative baffles that set up, the perpendicular fixed connection in top of baffle is in on the roof, dustcoat 12 cover in on the bottom plate 11 and can with 11 disconnect-type of bottom plate is fixed, and the fixed mode of disconnect-type can pass through screwed connection, also can connect through the mode of other joints, all can realize among the prior art. The side plate 13 is installed at one side of the outer cover 12 and the bottom plate 11. The housing 1 enclosed by the bottom plate 11, the outer cover 12 and the side plate 13 has a chamber.

As shown in fig. 1 to 3, the partition assembly 5 is disposed in the chamber, dividing the chamber into an indoor side 101 and an outdoor side 102, wherein the side having the side plate 13 is the indoor side 101. In this embodiment, the separation assembly 5 may be connected and fixed to the bottom plate 11 and the top plate of the outer cover 12 in a clamping manner, for example, clamping strips are disposed at the opposite positions of the bottom plate 11 and the top plate of the outer cover 12, and the upper end and the lower end of the separation assembly 5 are respectively clamped in the clamping strips, and may also be fixed by bolts or in a welding manner. In this embodiment, for the design requirement of simple to operate and the different sizes of the cooling device of adaptation, the partition subassembly 5 can be designed according to the size of cavity, for example can adopt the mutual concatenation of polylith division board to form, also can only adopt the big division board of size.

Since the partition assembly 5 divides the chamber into the indoor side 101 and the outdoor side 102, in this embodiment, an indoor air inlet 1011 and an indoor air outlet 1012 are formed on the bottom plate 11. The indoor air inlet 1011 and the indoor air outlet 1012 are both disposed at the indoor side 101. In the specific design, according to the size of the indoor side 101, the size of the indoor air inlet 1011 and the indoor air outlet 1012 and the distance between the indoor air inlet 1011 and the indoor air outlet 1012 are designed, in this embodiment, the indoor air inlet 1011 and the indoor air outlet 1012 are simultaneously arranged on the bottom plate 11, the indoor air inlet 1011 and the indoor air outlet 1012 are close to each other, when the air flow circulates, the temperature difference between the air temperature of the indoor air inlet 1011 and the air temperature of the indoor air outlet 1012 is not too large, so that the influence on the refrigeration effect due to too much heat exchange is prevented, and the specific combination with the air guide body 2 is explained below. An outdoor air outlet 1022 is disposed on the side opposite to the side plate 13, and a plurality of strip-shaped holes are disposed on the baffle of the outer cover 12, and have a heat dissipation function and serve as an outdoor air inlet 1021.

As shown in fig. 1 and 4, the air guide 2 includes a lower casing 21 and an upper casing 22. In the present embodiment, the internal structures of the lower case 21 and the upper case 22 are identical. The lower case 21 has a first lower air guide cavity 211, a second lower air guide cavity 212, and a lower mounting groove 213; the upper shell 22 has a first upper air guiding cavity, a second upper air guiding cavity and an upper mounting groove (not shown); the lower shell 21 and the upper shell 22 are butted with each other, so that the first lower air guiding cavity 211 and the first upper air guiding cavity form a first air guiding cavity 201, the second lower air guiding cavity 212 and the second upper air guiding cavity form a second air guiding cavity 202, the lower mounting groove 213 and the upper mounting groove form a mounting groove 203, and the first air guiding cavity 201 and the second air guiding cavity 202 are communicated with each other. The air guide body 2 is further provided with an air guide air inlet 205 and an air guide air outlet 206, the air guide air inlet 205 is arranged on the first air guide cavity 201, and the air guide air outlet 206 is arranged on the second air guide cavity 202. More specifically, in order to correspond to the indoor air inlet 1011 and the indoor air outlet 1012, the air guide inlet 205 and the air guide outlet 206 are both disposed on the same side of the lower housing 21, that is, the air guide inlet 205 faces the indoor air inlet 1011, and the air guide outlet 206 faces the indoor air outlet 1012. With this configuration, the indoor side airflow can be made to flow through the air guide 2 to the utmost extent, and the indoor side airflow can be prevented from escaping from the air guide 2 to the utmost extent, and the air guide 2 in the present embodiment includes the area of the indoor side 101 other than the air guide 2 and the area of the outdoor side 102.

As shown in fig. 1 and 4, the cross-flow fan 3 is disposed in the first air guiding cavity 201. Specifically, the cross-flow fan 3 includes two cross-flow wind wheels 31 and a plastic package motor 32, the plastic package motor 32 includes a machine body and a machine shaft, the machine body is fixed in the mounting groove 203, the machine shaft extends out from two sides of the machine body, and the two cross-flow wind wheels 31 are respectively connected to the machine shafts on two sides of the plastic package motor 32. In this embodiment, the cross-flow fan 3 is used as an indoor side airflow generating device, so that indoor side airflow formed by the indoor side 101 can be relatively stable and can be uniformly output from the indoor air outlet 1012, and therefore, when air is supplied, the airflow is unstable, and the experience feeling is reduced.

As shown in fig. 1 and 2, the refrigerating assembly includes an evaporator 41, a compressor 42, a condenser 43, and a pipe 44. The evaporator 41 is disposed in the air guide body 2 of the indoor side 101, specifically, the bottom of the evaporator 41 is fixed to the bottom of the second air guide cavity 202, and the top of the evaporator 41 is fixed to the top of the second air guide cavity 202. In order to facilitate installation and enable the evaporator 41 to be stably fixed in the air guide body 2, in this embodiment, a limiting plate 204 is disposed at the bottom of the lower casing 21 and between the air guide air inlet 205 and the air guide air outlet 206, similarly, a limiting plate 204 is also disposed at a corresponding position between the upper casing 22 and the lower casing 21, upper and lower ends of the evaporator 41 are respectively fixed on the limiting plate 204, and an air guide channel 207 is disposed between a side edge of the evaporator 41 and the second air guide cavity 202, as shown in fig. 9. The limiting plate 204 not only has a limiting function, but also has a function of enhancing the fixing effect of the evaporator 41. The compressor 42 is located on the outdoor side 102 and fixed on the bottom plate 11, the condenser 43 is also located on the outdoor side 102 and fixed on the bottom plate 11, the condenser 43 is installed on a side close to the outdoor air outlet 1022, and the compressor 42 is installed between the partition member 5 and the condenser 43. The upper and lower ends of the condenser 43 may be fixed to the bottom plate 11 and the top plate of the housing 12 by another set of limiting plates 204. Referring to fig. 5, the evaporator 41 communicates with the compressor 42 through a first conduit 44, the evaporator 41 communicates with the condenser 43 through a second conduit 45, and the condenser 43 communicates with the compressor 42 through a third conduit 46.

One end of the exhaust pipe 6 is fixed to the housing and is communicated with the outdoor air outlet 1022.

Exhaust fan 7 is including air exhaust motor 72 and flabellum 71, air exhaust motor 72 has air exhaust organism and exhaust fan axle, flabellum 71 is installed the exhaust fan is epaxial, exhaust fan 7 sets up in outdoor air outlet 1021, exhaust fan 7 is used for forming outdoor side air current, outdoor side air current is followed outdoor air intake 1021 gets into outdoor side 102, process in proper order again the compressor 42 the condenser 43 with exhaust fan 7 follows afterwards exhaust pipe 6 of outdoor air outlet 1022 discharges.

The evaporator 41, the compressor 42, the condenser 43, the cross-flow fan 3, and the exhaust fan 7 are electrically connected to the electronic control box 8, and the electronic control box 8 is mounted on the partition member 5 and located on the outdoor side 102. The design is favorable for arranging the electronic control box 8 capable of dissipating heat, the compressor 42 and the condenser 43 on the outdoor side 102, and heat exchange with the indoor side 101 is avoided to the maximum extent, so that the refrigeration effect is prevented from being influenced. The electric control box 8 is an electronic control center of the cooling device 100, is electrically connected with each component, and is used for controlling the operation of the corresponding component.

As shown in fig. 7, in order to facilitate maintenance and line arrangement, in this embodiment, an outlet 103 is formed on the housing, and the outlet plate 9 is clamped on the outlet 103. In order to facilitate the detachable installation of the outlet plate 9, in this embodiment, an opening 104 is formed on one side of the outlet 103, and a protrusion 105 is formed on an edge of the opening 104; an elastic member 91 is fixed on one side of the outlet plate 9, and a snap plate 92 is disposed on the side opposite to the elastic member 91, the elastic member 91 is formed by bending a metal material having elasticity, and the structure shown in fig. 6 of the embodiment may be specifically adopted, but a member having a spring property, for example, may also be adopted. The elastic piece 91 is far away from one side of the outlet plate and is provided with a limiting block 93, when the outlet plate 9 is installed on the outlet 103, the clamping plate 92 extends into the outdoor side 102, the edge of the clamping plate abuts against the baffle plate of the outer cover 12, the elastic piece 91 is clamped on the edge of the opening 104, and the limiting block 93 abuts against the protruding block 105. Therefore, the outlet plate 9 can be ensured to completely cover the outlet 103, and the condition that the outlet 103 has a gap is avoided, so that the sealing performance of the outlet plate 9 can be improved, the condition that electric leakage occurs due to the gap of the outlet 103 is also avoided, and the quality and the potential safety hazard of the cooling heater 100 are eliminated.

The air flow state of the cooling device of the present invention during operation will be briefly described with reference to fig. 8.

During refrigeration, the compressor 42 and the condenser 43 compress refrigerant from a gaseous state to a liquid state, and then the refrigerant is transmitted to the evaporator 41 on the indoor side 101 through the second pipeline 45, the evaporator 41 performs refrigeration through the liquid refrigerant, and vaporizes the liquid refrigerant to form the gaseous refrigerant, and transmits the gaseous refrigerant to the compressor 42 and the condenser 43, and thus the operation is repeated. The refrigerant refrigerating medium in the embodiment is cooling liquid, so that the temperature is reduced more quickly.

In the above-mentioned refrigeration process, at the indoor side 101, the cross-flow fan 3 works in the air guide body 2 to form the indoor side airflow, the indoor side airflow passes through the air guide air inlet 205, the first air guide cavity 201, the second air guide cavity 202 and the evaporator 41 in sequence from the indoor air inlet 1011, and then the indoor side airflow passes through the air guide channel 207, enters the air guide air outlet 206, and finally is discharged indoors through the indoor air outlet 1012, and the cycle is repeated. Outdoor side 102, exhaust fan 7 work is in outdoor side 102 forms outdoor side air current, outdoor side air current follows outdoor air intake 1021 passes through in proper order compressor 42 or automatically controlled box 8 and condenser 43, later outdoor side air current is followed exhaust fan 7 gets into outdoor air outlet 1022 passes through at last exhaust pipe 6 is to indoor discharge, and the circulation is reciprocal.

The above detailed description is provided for a cooling device provided in the embodiments of the present application, and the principle and the implementation of the present application are explained in the present application by applying specific examples, and the description of the above embodiments is only used to help understanding the method and the core idea of the present application; meanwhile, for those skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (15)

1. A cooling device, comprising:

a housing having a chamber therein;

the separation assembly is arranged in the chamber and is used for separating the chamber into an indoor side and an outdoor side; the shell is provided with an indoor air inlet and an indoor air outlet on the indoor side;

the air guide body is arranged on the indoor side and provided with an air guide air inlet and an air guide air outlet, the air guide air inlet faces the indoor air inlet, and the air guide air outlet faces the indoor air outlet;

the cross-flow fan is arranged in the air guide body and is positioned at the air guide air inlet; and

the evaporator is arranged in the air guide body and is positioned between the cross-flow fan and the air guide air outlet;

the cross-flow fan is used for forming indoor side air flow, and the indoor side air flow enters the air guide air inlet from the indoor air inlet, sequentially passes through the cross-flow fan and the evaporator, and is then discharged from the air guide air outlet to the indoor air outlet.

2. The super cooler of claim 1, wherein the air guide body comprises a first air guide cavity and a second air guide cavity which are communicated with each other, the air guide inlet is arranged on the first air guide cavity, the air guide outlet is arranged on the second air guide cavity, the cross-flow fan is arranged in the first air guide cavity, and the evaporator is arranged in the second air guide cavity.

3. The super cooler of claim 2, wherein the air guide comprises

The lower shell is provided with a first lower air guide cavity, a second lower air guide cavity and a lower mounting groove;

the upper shell is provided with a first upper air guide cavity, a second upper air guide cavity and an upper mounting groove;

the lower casing and the upper casing are mutually butted, so that the first lower air guide cavity and the first upper air guide cavity form a first air guide cavity, the second lower air guide cavity and the second upper air guide cavity form a second air guide cavity, the lower mounting groove and the upper mounting groove form a mounting groove, and the cross-flow fan is mounted in the mounting groove.

4. The super cooler of claim 3,

the top of the evaporator is fixed on the upper shell, the bottom of the evaporator is fixed on the lower shell, and an air guide channel is arranged between the side edge of the evaporator and the second air guide cavity.

5. The super cooler according to claim 3, wherein a position limiting plate for mounting and fixing the evaporator is provided at a side of the second air guiding cavity, where the upper casing and the lower casing are located, in a relative position.

6. The super cooler of claim 3, wherein the air guide inlet and the air guide outlet are both disposed on the same side of the lower housing.

7. The super cooler according to claim 1, wherein the cross-flow fan comprises two cross-flow wind wheels and a plastic package motor, the plastic package motor comprises a body and a spindle, the spindle extends from two sides of the body, and the two cross-flow wind wheels are respectively connected to the spindles on two sides of the plastic package motor.

8. The super cooler according to claim 1, further comprising a compressor and a condenser both disposed outside the chamber, the evaporator being in communication with the compressor through a first pipe, the evaporator being in communication with the condenser through a second pipe, the condenser being in communication with the compressor through a third pipe.

9. The super cooler of claim 8, wherein the housing further has an outdoor air intake opening and an outdoor air outlet opening at the outdoor side, the condenser is installed at a side adjacent to the outdoor air outlet opening, and the compressor is installed between the partition member and the condenser.

10. The super cooler of claim 9, further comprising an exhaust duct, one end of the exhaust duct being in communication with the outdoor air outlet.

11. The super cooler according to claim 9, further comprising an exhaust fan, the exhaust fan comprising an exhaust motor and a fan blade, the exhaust motor having an exhaust body and an exhaust shaft, the fan blade being mounted on the exhaust shaft, the exhaust fan being disposed at the outdoor air outlet, the exhaust fan being configured to form an outdoor side airflow, the outdoor side airflow entering the outdoor side from the outdoor air inlet, sequentially passing through the compressor, the condenser and the exhaust fan, and then being discharged from the outdoor air outlet.

12. The super cooler according to claim 9, wherein the housing further comprises at least one bar-shaped hole disposed at the outdoor side, and the at least one bar-shaped hole serves as the outdoor air inlet.

13. The super cooler according to claim 11, further comprising an electronic control box, wherein the compressor, the condenser, the cross-flow fan, the evaporator, and the exhaust fan are electrically connected to the electronic control box, and the electronic control box is mounted on the partition member and located outside the room.

14. The super cooler of claim 1, further comprising an outlet plate, wherein the housing defines an outlet, and the outlet plate is clamped to the outlet.

15. The super cooler of claim 14, wherein one side of the outlet has an opening, and the edge of the opening has a bump;

one side edge of the outlet plate is fixed with an elastic piece and one side relative with the elastic piece has a joint board, the elastic piece is kept away from the one side of outlet plate has a stopper, works as the outlet plate is installed when the outlet is last, the joint board stretches into in the outdoor side just the joint flange reason with the baffle of dustcoat supports each other and leans on, the elastic piece joint is in open-ended edge just the stopper with protruding piece supports each other and leans on.

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